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11.
A full field solution, based on small deformation, three-dimensional elastic–plastic finite element analysis of the centrally cracked thin disk under mode I loading has been performed. The solution for the stresses under small-scale yielding and lo!cally fully plastic state has been compared with the HRR plane stress solution. At the outside of the 3D zone, within a distance of rσo/J=18, HRR dominance is maintained in the presence of a significant amount of compressive stress along the crack flanks. Ahead of this region, the HRR field overestimate the stresses. These results demonstrate a completely reversed state of stress in the near crack front compared to that in the plane strain case. The combined effect of geometry and finite thickness of the specimen on elastic–plastic crack tip stress field has been explored. To the best of our knowledge, such an attempt in the published literature has not been made yet. For the qualitative assessment of the results some of the field parameters have been compared to the available experimental results of K, gives a fair estimate of the crack opening stress near the crack front at a distance of order 10−2 in. On the basis of this analysis, the Linear Elastic Fracture Mechanics approach has been adopted in analyzing the fatigue crack extension experiments performed in the disk (Part II). 相似文献
12.
Edward?L.?Sliwinski Femke?van der?Hoef Peter?Kolster Ton?van?VlietEmail author 《Rheologica Acta》2004,43(4):321-332
Glutens were isolated from flour of three European wheat cultivars which perform differently in cereal products. The rheological and fracture properties of gluten-water doughs were determined in uniaxial and biaxial extension at large deformations and small angle sinusoidal oscillation tests and compared with the mechanical properties of the parental flour doughs. At 25 °C the linear region was in the same range as that of flour dough, while at a higher temperature (45 °C) the linear region was more than an order of magnitude higher. At 45 °C the storage modulus and tan were lower than at 25 °C. Variation in moduli between cultivars was much more pronounced for gluten than for flour doughs.Similarly to flour dough in both uniaxial and biaxial extension the stress () increased more than proportionally with the strain, a phenomenon called strain hardening. The stress at a set strain and strain hardening depended much more strongly on the type of deformation for gluten than for flour dough: was higher in biaxial extension for gluten than for flour dough, but was much higher in uniaxial extension. This indicates that orientational effects in elongational flow are of even larger importance for the mechanical properties of gluten than of flour dough. It is likely that it is the glutenin fraction that, because of its large size, confers these direction dependent properties to gluten and flour doughs. Fracture stresses were much higher for gluten than for flour dough, while fracture strains were in the same range or higher. For gluten dough fracture strains increased less strongly with increasing strain rate than for flour dough. Glutens exhibiting a higher stress at a certain strain had a smaller fracture strain.Our findings confirm the conviction that the large deformation properties of flour dough are mainly governed by the gluten fraction. However, there are also differences. Compared to flour dough gluten dough exhibits (i) a stronger strain hardening, (ii) a larger difference in between uniaxial and biaxial extension and (iii) a smaller strain rate dependency of the fracture strain. 相似文献
13.
An experimental study is undertaken to examine the dynamic stress–strain characteristics of ligaments from the human cervical
spine (neck). Tests were conducted using a tensile split Hopkinson bar device and the engineering strain rates imposed were
of the order of 102∼103/s. As ligaments are extremely soft and pliable, specialized test protocols applicable to Hopkinson bar testing were developed
to facilitate acquisition of reliable and accurate data. Seven primary ligaments types from the cervical spines of three male
cadavers were subjected to mechanical tests. These yielded dynamic stress–strain curves which could be approximated by empirical
equations. The dynamic failure stress/load, failure stain/deformation, modulus/stiffness, as well as energy absorption capacity,
were obtained for the various ligaments and classified according to their location, the strain rate imposed and the cadaveric
source. Compared with static responses, the overall average dynamic stress–strain behavior foreach type of ligament exhibited
an elevation in strength but reduced elongation. 相似文献
14.
Ahmet N. Eraslan 《European Journal of Mechanics - A/Solids》2003,22(6):274-874
Analytical solutions for the stress distribution in rotating parabolic solid disks are obtained. The analysis is based on Tresca's yield criterion, its associated flow rule and linear strain hardening. It is shown that, the deformation behavior of the convex parabolic disk is similar to that of the uniform thickness disk, but in the case of concave parabolic solid disk, it is different. In the latter, the plastic core consists of three different plastic regions with different mathematical forms of the yield criteria. Accordingly, three different stages of elastic–plastic deformation occur. All these stages of elastic–plastic deformation are studied in detail. It is also shown mathematically that in the limiting case the parabolic disk solution reduces to the solution of rotating uniform thickness solid disk. 相似文献
15.
A.V. Idesman V.I. Levitas J.-Y. Cho 《Journal of the mechanics and physics of solids》2005,53(3):495-523
A new approach for modeling multivariant martensitic phase transitions (PT) and martensitic microstructure (MM) in elastic materials is proposed. It is based on a thermomechanical model for PT that includes strain softening and the corresponding strain localization during PT. Mesh sensitivity in numerical simulations is avoided by using rate-dependent constitutive equations in the model. Due to strain softening, a microstructure comprised of pure martensitic and austenitic domains separated by narrow transition zones is obtained as the solution of the corresponding boundary value problem. In contrast to Landau-Ginzburg models, which are limited in practice to nanoscale specimens, this new phase field model is valid for scales greater than 100 nm and without upper bound. A finite element algorithm for the solution of elastic problems with multivariant martensitic PT is developed and implemented into the software ABAQUS. Simulated microstructures in elastic single crystals and polycrystals under uniaxial loading are in qualitative agreement with those observed experimentally. 相似文献
16.
17.
C.K. Chao J.Q. Chen K.C. Yang C.C. Tseng 《Theoretical and Applied Fracture Mechanics》2007,47(1):26-34
The effect of creep failure mechanisms on the creep crack growth is examined on spent fuel Zircaloy cladding in interim storage. Based on the creep fracture mechanics parameter C* and the strain energy density criteria, the relationship between the creep crack growth rate and the fracture mechanics parameter C* is established theoretically. The effects of initial crack lengths and storage temperature profiles on cladding failure are discussed in detail. The results show that the initial crack length and the storage temperature profile play an important role in the interim dry storage. When the storage temperature remains at a constant temperature of 400 °C, it will be safe for the cladding which stores in the interim dry storage. The results presented in this study provide a reliable cladding integrity evaluation for spent fuel in the interim dry storage. 相似文献
18.
We investigate the rheological behavior of the polymer blends with fibril morphology, with special focus on the effect of fibril morphology on the extensional properties under uniaxial extension. We add a small amount of the dispersed phase to the matrix, and control the blend morphology by changing the viscosity ratio. When the fibril morphology is maintained, the blend shows not only a significant increase of the extensional viscosity but the strain hardening behavior. The extensional viscosity increases depending on the aspect ratio of the fibers, while the strain hardening behavior originates from the restricted stretching of deformable fibers, which has been confirmed theoretically by introducing the concept of rigidity of the fiber. It suggests a way to induce the strain hardening behavior by introducing deformable fibrils into the matrix, that is, by the design of polymer blends with a small amount of dispersed phase such that the fibril structure is maintained. 相似文献
19.
J. L. C. Diniz R. D. Vieira J. T. Castro A. C. Benjamin J. L. F. Freire 《Experimental Mechanics》2006,46(6):765-775
This paper presents the analysis of stress and strain data acquired with the finite element method and with tests that used
post-yielding strain gages bonded onto the external surface of pipes that suffered thickness metal loss and that had been
loaded with internal pressure. These metal loss areas were produced by three different processes: actual internal corrosion,
careful machining of external patches by spark-erosion, and milling of internal or external patches to simulate limited or
extensive strip corrosion defects with depths up to 70% of the pipe’s thickness. Results show that: (1) the extensive longitudinal
internal or external defect areas behave as extensive strips with a high degree of freedom to deform elastically and plastically
in the circumferential and thickness directions, and (2) large restraints are offered to the longitudinal strains by the non-corroded
thick walls parallel to the strip. Using the above experimental observation, a simple mathematical model was developed to
predict the burst pressure of pipes with longitudinal extensive and reasonably constant depths of metal loss. This model employed
thin-pipe-strength-of-material equations associated to a bulging correction factor, the material’s uniaxial ultimate strength
and the von Mises criterion. The onset of plastic collapse predicted by the simple model was successfully compared with results
determined from actual hydrostatic tests that were carried out with full scale pipe specimens and from finite element results
generated by the use of a commercial program. The developed model was also helpful in showing that the yield and burst behaviors
of new or corroded pipeline specimens under laboratory test conditions can be directly compared and extended to the yield
and burst behaviors of buried pipeline in field operation. 相似文献
20.
P.J. Tan J.J. Harrigan Z. Zou S. Li 《Journal of the mechanics and physics of solids》2005,53(10):2174-2205
This study of the dynamic compressive strength properties of metal foams is in two parts. Part I presents data from an extensive experimental study of closed-cell Hydro/Cymat aluminium foam, which elucidates a number of key issues and phenomena. Part II focuses on modelling issues.The dynamic compressive response of the foam was investigated using a direct-impact technique for a range of velocities from 10 to . Elastic wave dispersion and attenuation in the pressure bar was corrected using a deconvolution technique.A new method of locating the point of densification in the nominal stress-strain curves of the foam is proposed, which provides a consistent framework for the definition of the plateau stress and the densification strain, both essential parameters of the ‘shock’ model in Part II. Data for the uniaxial, plastic collapse and plateau stresses are presented for two different average cell sizes of approximately 4 and 14 mm. They show that the plastic collapse strength of the foam changes significantly with compression rate. This phenomenon is discussed, and the distinctive roles of microinertia and ‘shock’ formation are described. The effects of compression rates on the initiation, development and distribution of cell crushing are also examined. Tests were carried out to examine the effects of density gradient and specimen gauge length at different rates of compression and the results are discussed. The origin of the conflicting conclusions in the literature on the correlation between nominal strain rate (ratio of the impact velocity Vi to the initial gauge length lo of the specimen) and the dynamic strength of aluminium alloy foams is identified and explained. 相似文献